Total Lunar Eclipse of 30 Jul, 2102 AD

Timezone / Date

Accuracy

Due to the erratic rotation of the Earth, the time and location of the eclipse cannot be forecast perfectly.
This eclipse's time is estimated to be accurate ± 1m36s (with 95% confidence).
This equates to an error in longitude of ± 0.404 degrees, or around ± 43 km (27 miles) at the latitude of greatest eclipse.

A total eclipse of the Moon occurs on Sunday 30 July, 2102 UT, with maximum eclipse at 00:25 UT. The Moon will barely edge into total eclipse for 31 minutes and 18 seconds. With the Moon just 5% of its diameter into the Earth's umbral shadow, the Moon may be quite bright, but even so, this should be worth seeing. The partial eclipse will last for 3 hours and 10 minutes in total.

The penumbral eclipse lasts for 5 hours and 3 minutes.
The partial eclipse lasts for 3 hours and 10 minutes.
The total eclipse lasts for 31 minutes and 18 seconds.
Maximum eclipse is at 00:25:41 UT.

During this eclipse the Moon will be at perigee, making it extremely large.
At maximum eclipse it will be 0.567° in apparent
diameter, which is 6.8% larger than average.
The statistics page has information on the ranges of the sizes of
the Sun and Moon.

Interactive Map

This map shows the visibility of the eclipse at maximum eclipse,
when it will be visible within the bright area on the map. Note that
the map is approximate, and if you
are near the edge of the area of visibility, the moon will be very close
to the horizon and may not be practically visible.

You can use the zoom controls to zoom in and out, and pan to
see areas of interest. The green marker in the centre shows where
the Moon will be directly overhead at maximum eclipse.

Note that while all dates and times on this site (except
where noted) are in UT, which is within a second of civil time,
the dates and times shown in NASA's eclipse listingsGSFC Eclipse Web SiteThe primary source of all the information on eclipses presented here at Hermit Eclipse. [NASA Goddard Space flight Center]https://eclipse.gsfc.nasa.gov/eclipse.html are in the TDT timescale.

The Sun and Moon distances are shown in km, and as a
percentage of their minimum - maximum distances; hence 0%
is the closest possible (Earth's perihelion, or the
Moon's closest possible perigee) and 100% is
the farthest (aphelion, the farthest apogee).
The statistics page has information on the ranges of sizes
of the Sun and Moon.